When salmon return from the ocean to the Klamath River after the world鈥檚 largest dam removal project ends this fall, they will regain access to 400 miles of historical spawning habitat their species has been cut off from for more than a century.
From the river to the lab, looking at the very ear bones of fish, scientists with the University of California, Davis, are playing a key role helping to answer a big dam question: Will it work? Will a diverse population of salmon thrive again once the dams are removed and the Klamath River restored?
The answers are important not only for the Klamath but also for dams across the world that have outlived their usefulness. Less than 100 miles south of Klamath, for instance, is the Eel River, where a dam is slated to be removed in 2028. In 2023 alone, 80 dams were demolished across the U.S.
鈥淚t will work,鈥 said , a freshwater ecologist and assistant professor in the 新澳门六合彩内幕信息 Davis Department of Wildlife, Fish and Conservation Biology. 鈥淭here鈥檚 nothing better we could do for fish and for people in Northern California and throughout the world than to remove these dams. But if we don鈥檛 track and try to better understand how things are changing, we鈥檙e not going to understand their importance for future efforts.鈥
The Yurok Tribe and the fight for the Klamath River
The mouth of the Klamath River empties into the Pacific Ocean along California鈥檚 northernmost coastline in the town of Klamath, on the ancestral lands of the Yurok Tribe. Here, cold surf crashes against sea stacks amid piles of driftwood. The sun is shining on this often foggy beach, warming a wintry November day at the end of the 2023 fall-run salmon season.
Barry McCovey, director of the Yurok Tribal Fisheries Department, points to a flicker of silver wriggling in a cove. 鈥淧acific lamprey,鈥 he said.
The eel-like fish inches itself back to the safety of the estuary. Like salmon, steelhead and sturgeon, the native species is anadromous, spending part of its life in the river and part in the ocean. The mouth of the Klamath is a critical gateway for these species. Yet it鈥檚 one that 鈥 for a century up until 2024 鈥 could take them only so far, to Iron Gate Dam, beyond which await hundreds of miles of unreachable spawning habitat.
The four hydroelectric dams being removed 鈥 J.C. Boyle, Copco No. 1, Copco No. 2 and Iron Gate 鈥 were built between 1908 and 1962 to produce energy upstream of the Yurok, Hoopa and Karuk tribes and downstream of the Klamath Tribes of Oregon. Reduced water quality and drastic salmon declines followed. The once abundant spring-run Chinook are down to less than 2% of pre-dam populations.
鈥淲hen the dams went in, the tribal people in the Klamath Basin weren鈥檛 consulted,鈥 McCovey said. 鈥淭hat was offensive, and people were uncomfortable with that and have been for over 100 years. We knew we needed to get the dams out. We knew that you can鈥檛 just go and break an ecosystem in half.鈥
Beth Rose Middleton Manning, a professor of Native American studies at 新澳门六合彩内幕信息 Davis, said tribes were rarely consulted throughout the history of U.S. dam construction.
鈥淚n almost every location where there鈥檚 a dam, there鈥檚 a history of displacement, disruption and putting in that infrastructure without the consent of the communities and nations whose homeland that is,鈥 she said.
鈥淭he river is who we are,鈥 said Hoopa Valley Tribe member Brittani Orona, a Hupa scholar and postdoctoral fellow at 新澳门六合彩内幕信息 Santa Cruz. 鈥淲ithout fisheries, without this river, we cease to be Hupa, Yurok and Karuk peoples.鈥
McCovey remembers when dam removal seemed an impossible dream. Tribal members were laughed out of the room when they proposed it. Then, in 2002, the deaths of at least 30,000 salmon marked a turning point, and a rallying cry to 鈥渦ndam the Klamath鈥 rose from Native and non-Native voices, policymakers, lawyers, scientists and the public.
In 2022, the Federal Energy Regulatory Commission surrendered the four dams鈥 license and approved the decommissioning project. Demolition began in 2023 and is expected to conclude this fall 鈥 in time for Chinook salmon returns.
FERC鈥檚 announcement was momentous. But for McCovey and many others who had waited their entire lives to hear it, dam removal had to be seen to truly be believed.
鈥淪eeing Copco come down and actually holding a piece of that dam in my hand kind of solidified that, OK, this is really happening,鈥 McCovey said.
Now he鈥檚 working with partners to ensure the river is safe and hospitable for returning salmon.
鈥淭he juvenile fish that left a couple of years ago are going to be coming back to a completely different river,鈥 he said. 鈥淚t鈥檚 an exciting time to be a salmon in the Klamath River.鈥
Below Iron Gate dam: Chinook salmon
Inland and upriver, the landscape changes from green, foggy redwood forests to cream-colored meadows tipped with frost. Nearby Mount Shasta cuts stark angles across the horizon. Below the highway, anglers in drift boats fish for steelhead, which are also expected to benefit from an undammed river. We travel as far as the salmon can, to Iron Gate Dam.
On this late November morning, just two months before Iron Gate is breached, the construction site beeps and grumbles as trucks dig and scrape alongside the dam. Below, on the riverbank, crews from the U.S. Fish and Wildlife Service and the Yurok Tribe prepare pontoon boats for the last weekend of this fall鈥檚 fish carcass surveys.
鈥淭his is the coldest put-in I鈥檝e ever felt,鈥 Lusardi said, pushing our raft into the river. It鈥檚 about 32 degrees. Froth along the riverbeds has crystallized, and circles of ice form in the flotsam. Icicles hang from branches dangling in the water. Steam rises off the river as three deer swim across, their heads bobbing before reaching the bank.
With temperatures like this to return to, fall-run Chinook still come back each year below Iron Gate. Spring-run Chinook, however, are a different story. Once the largest run in the basin, spring-run Chinook are now a rarity. They move into the river during spring, and used to spend their summers in the cool, clean waters of the upper Klamath. But dams cut off access to those habitats, and what is left is too warm in the summer to support them.
鈥淭hey鈥檙e looking for cold water refugia, and that鈥檚 what doesn鈥檛 exist,鈥 Lusardi said.
鈥淚t鈥檚 no surprise we lose spring-run Chinook when we cut off every habitat that helped them evolve,鈥 said Damon Goodman, California Trout鈥檚 Mount Shasta-Klamath regional director, who accompanies us down the river.
Importance of habitat diversity for wild salmon
In 2017鈥檚 State of the Salmonids report, 新澳门六合彩内幕信息 Davis fish biologist Peter Moyle and Lusardi warned that nearly half of California鈥檚 native salmon populations were expected to go extinct in the state within 50 years, including spring-run Chinook. More recently, California canceled its salmon fishery for 2023 and 2024 due to low returns. The Yurok didn鈥檛 even serve salmon at their annual salmon festival last summer over conservation concerns.
To understand how to possibly turn around this trajectory, it helps to go back at least 50 million years. As salmon evolved on the landscape, they developed a diversity of life experiences, what biologists call 鈥渓ife histories,鈥 that kept them resilient. Diverse habitats were incubators of life history diversity. Historically, habitats in the Klamath watershed produced salmon of different sizes, with different periods of migration and different behaviors. If a disturbance reduced some populations, others survived, ensuring their long-term persistence.
Levees and dams changed all that, cutting off access to diverse habitats. At the same time, hatcheries reduced genetic diversity. Climate change and warming waters exacerbate existing problems. These issues facing salmon in the Klamath are shared by rivers and native fish across the state and globe.
鈥淲hen you homogenize the landscape, you homogenize the fish,鈥 said Lusardi. 鈥淭emperatures are changing; flows are changing. To deal with that, you need genetic and behavioral diversity. Removing a dam and providing access to these historical habitats allows these animals to recreate some of that diversity that is so important for their future persistence.鈥
Tell-tale traces of strontium in otoliths
On this day, the Yurok and USFWS crews glide along the edge of the river looking for dead salmon. Leanne Knutson of the Yurok Tribe stands up in the boat holding a long pole with a hook at the end. When she sees 鈥 or smells 鈥 a dead fish, she scoops it with the hook, lifting it from the water. Sometimes it鈥檚 a keeper. Usually it disintegrates, this late in the season.
Salmon deemed fresh 鈥渆nough鈥 for science are collected and measured. Their otoliths 鈥 tiny ear bones 鈥 are removed and given to Lusardi for lab analysis at 新澳门六合彩内幕信息 Davis. These otoliths, and the strontium signals they carry within them, are key to understanding where and how salmon use the river.
Jamie Holt, a fish technician with the Yurok Tribe for about 25 years, records each fish from the back of the boat.
鈥淚 never thought I鈥檇 have a life鈥檚 work that amounted to something, but here we are,鈥 Holt said.
Before we leave, Holt hands Lusardi an open box full of plastic bags sloshing with aquatic insects. He鈥檒l take these back to his lab for more analysis, more clues to understand this changing river.
鈥淭here are a lot of us with high hopes,鈥 Goodman said. 鈥淥thers think it鈥檚 a boondoggle. We need to be able to tell the story accurately so we can learn from it and refine what we do in the future. Science and data are a huge part of that.鈥
Tracking a salmon鈥檚 life with strontium signals
Back at 新澳门六合彩内幕信息 Davis in the spring, junior specialist and lab manager Sarah Howe sits at a lab table at the Center for Watershed Sciences. She holds a tiny white fragment in her hand. It鈥檚 an otolith, pulled from the brain cavity of a salmon collected the previous fall on the Klamath River.
Howe places the otolith on a slide, then grinds it in concentric circles over black sandpaper, using a device a jeweler might use to polish a gem. She checks her progress under the microscope beside her, then flips the otolith over. The susurrous grinding continues until she reaches the otolith鈥檚 core.
鈥淚t鈥檚 a mundane process,鈥 she acknowledged. But it鈥檚 helping to answer huge questions of ecological, economic, cultural and spiritual significance. 鈥淭his will give us a view of the fish鈥檚 entire life history.鈥
That鈥檚 because of strontium, a naturally occurring element reflective of a watershed鈥檚 changing geology. As a salmon swims over the rocks and streams of its life, it picks up traces of strontium and stores them in its otoliths until it dies.
Using a technique pioneered by project collaborator of National Oceanic and Atmospheric Administration Fisheries, Lusardi鈥檚 lab has spent the past four years sampling strontium in the water of different streams throughout the Klamath Basin to create an 鈥渋soscape鈥 鈥 a map of strontium signals throughout the watershed they can match to the otolith of an individual fish.
鈥淣o one has done the strontium otolith work with any dam removal project anywhere. We鈥檙e chasing diversity." 鈥擱obert Lusardi
鈥淣o one has done the strontium otolith work with any dam removal project anywhere,鈥 Lusardi said. 鈥淲e鈥檙e chasing diversity. This project is the first to look at this question of life history diversity related to dam removal. It will tell us where the fish go, the habitats that they use, and when they leave.鈥
Once Howe鈥檚 polishing concludes, the shiny white otolith core gets packaged and sent next door, to the 新澳门六合彩内幕信息 Davis Department of Earth and Planetary Sciences, where it will be laser blasted to reveal its strontium content in fine detail.
Reading a fish鈥檚 diary: Insights from salmon otoliths
At the other end of the lab, Center for Watershed Sciences staff researcher George Whitman looks at what appears to be a large, white tree ring on his computer screen. The image is of an otolith, and each ring represents a day of the fish鈥檚 life. Whenever the fish undergoes stress, it lays down a darker line.
鈥淏eing born is stressful, apparently,鈥 he said, pointing to a deep line along the image鈥檚 first layer.
Another line indicates when the fish lived in gravel as a small fry, when it left the river where it was born, and when it entered the ocean.
鈥淚 like to think of it as the fish鈥檚 diary,鈥 Whitman said.
Reading many diaries like this one will tell the story of salmon before and after Klamath dam removal. Lusardi鈥檚 lab collected four years of otolith samples before the dams were removed and has since processed about 200 otoliths. They鈥檒l compare their strontium signals to those collected after the dams come down as surveys continue along the river.
Combined with the lab鈥檚 work investigating the implications of dam removal on water quality, the food web and the reintroduction of spring-run Chinook to the upper basin, this research will unlock how the life history of salmon can be improved and which new habitats they鈥檙e using.
鈥淚magine you鈥檝e spent millions of dollars restoring a creek,鈥 Lusardi said. 鈥淵ou might want to know if fish are actually using it, and if not, why not. Right? We can get at some of those answers.鈥
Future environmental impact of Klamath dam removal
The world will be looking to the Klamath River as other dam removals occur. Those involved in this historic effort are looking forward to documenting and passing on the lessons learned here about community, policy, science, persistence and the patience needed to help mend a broken system.
鈥淒am removal is not just a drop in the bucket,鈥 Lusardi said. 鈥淲e need more projects like this to recover salmon and fish. This is the best possible thing for the Klamath River, but the response won鈥檛 be immediate.鈥
The Klamath is undergoing major surgery after a century of pain. Healing will take time.
This spring, Klamath Basin residents have watched the reservoirs drain, billions of seeds the Yurok planted along the basin bloom, and a river begin to find itself again.
鈥淚 think the biggest takeaway is that it鈥檚 possible,鈥 said McCovey. 鈥淲hat we鈥檝e been through here on the Klamath can provide hope to people. There are diametrically opposed viewpoints throughout the basin, but we somehow managed to pull everyone together and make this happen. It wasn鈥檛 always pretty, and the strategies didn鈥檛 always work, but somehow, at the end of the day, we鈥檙e here.鈥
Discover More 新澳门六合彩内幕信息 Davis Research on Fish, Salmon and Dams
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Kat Kerlin, 新澳门六合彩内幕信息 Davis News and Media Relations, 530-750-9195, kekerlin@ucdavis.edu